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Review
. 2019 May 7:15:345-369.
doi: 10.1146/annurev-clinpsy-050718-095727. Epub 2019 Feb 20.

Using a Developmental Ecology Framework to Align Fear Neurobiology Across Species

Bridget Callaghan  1   2 Heidi Meyer  3 Maya Opendak  4   5 Michelle Van Tieghem  1 Chelsea Harmon  1 Anfei Li  3 Francis S Lee  3 Regina M Sullivan  4   5 Nim Tottenham  1
Affiliations
Review

Using a Developmental Ecology Framework to Align Fear Neurobiology Across Species

Bridget Callaghan et al. Annu Rev Clin Psychol. .

Abstract

Children's development is largely dependent on caregiving; when caregiving is disrupted, children are at increased risk for numerous poor outcomes, in particular psychopathology. Therefore, determining how caregivers regulate children's affective neurobiology is essential for understanding psychopathology etiology and prevention. Much of the research on affective functioning uses fear learning to map maturation trajectories, with both rodent and human studies contributing knowledge. Nonetheless, as no standard framework exists through which to interpret developmental effects across species, research often remains siloed, thus contributing to the current therapeutic impasse. Here, we propose a developmental ecology framework that attempts to understand fear in the ecological context of the child: their relationship with their parent. By referring to developmental goals that are shared across species (to attach to, then, ultimately, separate from the parent), this framework provides a common grounding from which fear systems and their dysfunction can be understood, thus advancing research on psychopathologies and their treatment.

Keywords: development; ecology; fear; human; parental buffering; rodent; stress.

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Conflict of interest statement

DISCLOSURE STATEMENT

The authors are not aware of any affiliations, memberships, funding, or financial holdings that might be perceived as affecting the objectivity of this review. N.T. is a member of the Child Mind Institute’s Scientific Research Council, is a board member of the Flux Congress and the Society for Social Neuroscience, has received funding from the US National Institutes of Health and the Mindset Scholars Network Foundation, and is a member of the Scientific Advisory Board of the Leipzig Research Center for Early Child Development.

Figures

Figure 1
Figure 1
(a) Graphical depiction of cross-species alignment of fear learning and the relevant neural circuits across typical maturation within the developmental ecology framework. (b) Summary of fear learning circuitry across the three phases of typical development in early life for rodents (i–iii) and humans (iv–vi). Gray shading indicates the presumed functional maturity of different structures based on the evidence. Functional connectivity in humans is depicted by lines connecting structures, and the presumed maturity of those structures is illustrated by whether the line is solid (mature) or broken (immature). The same scheme is used for rodent connectivity, with the additional complexity of indicating whether the connection is an excitatory (triangle) or inhibitory (perpendicular) projection, a distinction afforded by the greater specificity of the evidence from rodents. Abbreviations: HPC, hippocampus; IL, infralimbic region of the PFC; LC, locus coeruleus; OB, olfactory bulb; Pir, piriform cortex; PFC, prefrontal cortex; PL, prelimbic region of the PFC; PND, postnatal day.
Figure 2
Figure 2
Select rodent models of early caregiving adversities discussed in this review. The fear behavior and circuitry that have been associated with these early caregiving adversities are listed under the heading Outcome, and the developmental ecology phase at which those outcomes have been reported is listed under Phase. Abbreviations: HPA, hypothalamic–pituitary–adrenal; LA, lateral amygdala; PFC, prefrontal cortex.
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